The Laplace distribution with mean and scale has the probability density function

(The Laplace distribution is sometimes known as the double exponential distribution, since each tail corresponds to that for an exponential random variable.) Note that if we can show that the Laplace distribution with mean is a mixture of normals, then by shifting all these normals by , it follows that the Laplace distribution with mean is also a mixture of normals.

Fix . Let , i.e. for , and let . We claim that has the Laplace distribution with mean and scale . This is equivalent to showing that for any ,

The key to showing this identity is noticing that the integrand on the LHS looks very much like the probability density function (PDF) of the inverse Gaussian distribution. Letting , and be an inverse Gaussian random variable with mean and shape ,